主要研究领域和方向
► 低温余热利用与节能
    在低温余热利用的系统设计、最优化运行及工业应用方面有长达20年的研究经验；
► 动力系统仿真与电网一次调频
    原动机(汽轮机、燃气轮机、水轮机和联合循环机组)的建模及其控制系统对于电网稳定性影响的研究，提出了机网协调控制的基本原理和方法；
► 新型可再生能源发电技术与储能系统研究
    风电场短期、超短期功率预测及其对电网稳定性影响，太阳能发电技术，大功率储能系统理论和方法；
► 电网的控制及最优化运行
► 新型动力循环理论和方法(SCO2，ORC,KALINA,常规联合循环)

► 汽轮机设计与开发

► 发电厂空气冷却技术
► 发电厂动力系统状态监测与故障诊断

 

近期承担的重点项目

►国家重大专项课题， 2020-

►国家自然科学基金,太阳能驱动的超临界CO2布雷顿循环发电系统能量匹配机理与全域调控方法研究， 2020-

►国家重点研发计划课题,固体散料余热高效梯级回收利用集成与示范， 2017
►国家重点研发计划子课题,超临界H2O/CO2传热流动特性及汽轮机设计基础研究， 2016

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专利与软件著作

[1]      王江峰，戴义平，等.《一种吸收式制冷和动力联合循环系统》，专利号：ZL200810150222.6。

[2]      王江峰，戴义平，等.《一种固体氧化物燃料电池驱动的冷热电联供循环系统》，专利号：ZL201010590473.3。

[3]      戴义平，等.《汽轮机湿蒸气级抽吸去湿装置》，专利号：ZL200810017686.X。

[4]      戴义平，等.《一种便携式汽轮机动态转速测量装置及方法》，专利号：ZL201010617003.1。

[5]      王江峰，戴义平，等.《一种基于氨水混合工质的太阳能冷电联供系统》，专利号：ZL201110327314.9。

[6]      戴义平，等.《一种汽轮机轴端螺旋槽密封的自动调节装置及方法》，专利号：ZL201110125623.8。

[7]      戴义平，等.《一种有机朗肯循环低温发电工质置换系统及其置换方法》，专利号：ZL201110129510.5。

[8]      赵攀，戴义平，等.《用于平抑集群化风电场功率输出波动的混合储能系统》，专利号：ZL201310047479.X。

[9]      王江峰，王建永，戴义平，等.《一种用于地热能利用的基于氨水混合工质的冷电联供系统》，专利号： ZL201310067899.4。

[10]    陈凯，王江峰，戴义平.《基于直接空冷电站余热利用的喷管加速热空气推动风机的发电系统》，专利号：ZL201210497443.7。

[11]    戴义平，等.《一种有机朗肯循环发电系统工质泄漏检测装置》，专利号：ZL201420648271.3。

[12]    戴义平，龙颖，等.《一种基于微处理器的有机工质地热发电汽轮机调速系统》，专利号： ZL201820347355.1。

[13]    戴义平，强雄超，等.《一种应用于烟气中二氧化碳/水混合物深度分离装置》，专利号：ZL201721833591.6。

[14]    戴义平，陈康，等.《一种用于固体散料余热高效梯级回收利用的集成系统》，专利号：ZL201811070300.1。

[15]    戴义平，强雄超，等.《CO2/H2O混合工质汽轮机组设计程序软件V1.0》，登记号：2018SR066338。

 

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学术论文

• 2019年

会议论文

[1]    Gong P, Chen K, Zheng S, et al. Economic Analysis of Domestic Grid-connected Photovoltaic Systems in the Xining Region Based on Sensitivity Analysis Method[C]. 14th conference on sustainable development of energy,water and environment systems, Croatia,2019.

[2]    Chen K, Du Y, Yang,Y, et al. A comprehensive geothermal system in the usage of oilfield associated Water from abandoned oil wells[C]. The 5th international Seminar on  ORC Power System, Athens, Greece, 2019.

[3]    Han J, Song Y, Xu M, et al. Off-design analysis of a supercritical CO2 Brayton cycle with ambient air as the cold source driven by waste heat recovery from gas turbine[C]. 5th International Workshop on Heaat/Mass Transfer Advance for Energy Conservation and Pollution Control, Novosibrisk, Russia, 2019.

[4]    Xu M, Han J, Wang Z, et al. Thermodynamic analysis of energy storage system based on liquid carbon dioxide and comparison study with liquid air energy storage system[C]. 5th International Workshop on Heaat/Mass Transfer Advance for Energy Conservation and Pollution Control, Novosibrisk, Russia, 2019.

[5]    Song Y, Han J, Xu M, et al. Dynamic performance analysis of PCHE for supercritical carbon dioxide Brayton power cycle with difference discretization schemes[C]. 5th International Workshop on Heaat/Mass Transfer Advance for Energy Conservation and Pollution Control, Novosibrisk, Russia, 2019.

[6]    Chen H, Gong P, Zheng S, et al. Thermodynamic analysis of an improved transcritical CO2 cycle and recovery of  CO2 in gas turbine emission[C]. 5th International Workshop on Heaat/Mass Transfer Advance for Energy Conservation and Pollution Control, Novosibrisk, Russia, 2019.

[7]    郑少雄，陈康，曹越，等. 再热凝汽式汽轮机组一次调频动态特性研究[C]. 电站自动化信息化学术和技术交流会议, 哈尔滨, 2019(171-177).

 

期刊论文

 [1]    Li H, Jin Z, Yang Y, et al. Preliminary conceptual design and performance assessment of combined heat and power systems based on the supercritical carbon dioxide power plant[J]. Energy Conversion and Management, 2019, 199.

[2]    Yang Y, Li H, Dai Y. Nonlinear vibration characteristics of spur gear system subjected to multiple harmonic excitations[J]. Preceedings of the Iinstitution Of Mechanical Engineers Part C-Journal of Mechanical Engineerings Science, 2019, 233(17):6026-6050

[3]    Yang Y, Cao L, Li H, et al. Nonlinear dynamic response of a spur gear pair based on the modeling of periodic mesh stiffness and static transmission error[J]. Applied Mathematical Modelling, 2019, 72:444-469.

[4]    Yang Y, Xia W, Han J, et al. Vibration analysis for tooth crack detection in a spur gear system with clearance nonlinearity[J]. International Journal of Mechanical Science, 2019, 157:648-661

[5]    Yang Y, Xu M, Du Y, et al. Dynamic analysis of nonlinear time-varying spur gear system subjected to multi-frequency excitation[J]. Journal of Vibration and Control, 2019, 25(6):1210-1226.

[6]    Wang J, Wang J, Zhao,Pan, et al. Proposal and thermodynamic assessment of a new ammonia-water based combined heating and power (CHP) system[J]. Energy Conversion and Management, 2019, 184:277-289.

[7]    Yang Y, Wang Z, Ma Q, et al. Thermodynamic and Exergoeconomic Analysis of a Supercritical CO2 Cycle Integrated with a LiBr-H2O Absorption Heat Pump for Combined Heat and Power Generation[J]. Applied Science, 2019, 10(1);323

[8]    Xia W, Huo Y, Song Y, et al. Off-design analysis of a CO2 Rankine cycle for the recovery of LNG cold energy with ambient air as heat source[J]. Energy Conversion and Management, 2019, 183:116-125.

[9]    Du Y, Chen K, Dai Y, et al. A study of the optimal control approach for a Kalina cycle system using a radial-inflow turbine with variable nozzles at off-design conditions[J]. Applied Thermal Engineering, 2019, 149:1008-1022.

[10]    Ren J, Cao Y, Long Y, et al. Thermodynamic Comparison of Gas Turbine and ORC Combined Cycle with Pure and Mixture Working Fluids[J]. Journal of Energy Engineering, 2019, 145(1).

[11]    高毅超，夏文凯，龙颖，等. 管径和转折角对Z型PCHE换热及压降影响的研究[J]. 热能动力工程.2019, 34(2):94-100 

[12]    郑少雄，曹越，王永庆，等. 基于辨识模型的中间再热机组一次调频特性研究[J]. 热能动力工程.2019.  

 

• 2018年

期刊论文

[1]    Du Yang, Yang Y, Hu D, et al. Off-design performance comparative analysis between basic and parallel dual-pressure organic Rankine cycles using radial inflow turbines[J]. Applied Thermal Engineering, 2018, 138:18-34.

[2]    Du Yang, Long Y, Hao,M, et al. Off-design performance comparative analysis between dualpressure organic rankine cycles using pure and mixture working fluids[C]. Proceedings of the ASME Turbo Expo, 2018, Norway.

[3]     Du Y, Chen H, Hao M, et al. Off-design performance comparative analysis of a transcritical CO2power cycle using a radial turbine by different operation methods[J]. Energy Conversion and Management, 2018, 168:529-544.

[4]    Dai Y, Wang X, Li X, et al. Preliminary Analysis of Direct and Indirect Heat Rejection Systems for a Small sCO2 Brayton Cycle Using an Existing Natural Draft Dry Cooling Tower[J]. Journal of Energy Engineering, 2018, 144(2).

[5]    Li H, Su W, Cao L, et al. Preliminary conceptual design and thermodynamic comparative study on vapor absorption refrigeration cycles integrated with a supercritical CO2power cycle[J]. Energy Conversion and Management, 2018, 161:162-172.

[6]    Li H, Xu M, Yan X, et al. Preliminary conceptual exploration about performance improvement on supercritical CO2 power system via integrating with different absorption power generation systems[J]. Energy Conversion and Management, 2018, 173:219-232.

[7]    Li H, Yang Y, Cheng Z, et al. Study on off-design performance of transcritical CO2power cycle for the utilization of geothermal energy[J]. Geothermics, 2018, 71:369-379.

[8]    Cao Y, Rattner A, Dai Y. Thermoeconomic analysis of a gas turbine and cascaded CO2 combined cycle using thermal oil as an intermediate heat-transfer fluid[J] Energy, 2018, 162:1253-1268.

[9]    Cao L, Wang J, Chen L, et al. Comprehensive analysis and optimization of Kalina-Flash cycles for low-grade heat source[J]. Applied Thermal Engineering. 2018,131. 

[10]    Cao L, Lou J, Wang J, et al. Exergy analysis and optimization of a combined cooling and power system driven by geothermal energy for ice-making and hydrogen production[J]. Energy Conversion and Management, 2018, 174

[11]    Xia J, Wang J, Zhou K, et al. Thermodynamic and economic analysis and multi-objective optimization of a novel transcritical CO2 Rankine cycle with an ejector driven by low grade heat source[J]. Energy, 2018, 161.

[12]    Xia J, Wang J, Zhang G, et al. Thermo-economic analysis and comparative study of transcritical power cycles using CO2-based mixtures as working fluids[J]. Applied Thermal Engineering, 2018,144.

[13]    Cao L, Wang J, Chen L, et al. Thermoeconomic Analysis and Multi-Objective Optimization of a Combined Cooling and Power System Using Ammonia-Water Mixture: Case Study[J]. Jouurnal of Energy Engineering, 2018, 144(3).

[14]    Xia J, Wang J, Wang H, et al. Three-dimensional performance analysis of a radial-inflow turbine for an organic Rankine cycle driven by low grade heat source[J]. Energy Conversion and Managemant, 2018, 169.

[15]    曹越, 赵攀, 王江峰, 等. 带回热的燃气轮机-有机朗肯联合循环热力设计[J]. 燃气轮机技术, 2018, 31(1):11-15.

[16]    夏文凯, 高毅超, 霍耀武, 等. 一种新型跨临界CO_2冷电联供系统热力分析[J]. 发电技术, 2018, 0(1):328-335.

 

• 2017年

会议论文

[1]      Huo Y, Xia W, Yang Y, et al. Performance Analysis and Optimization of an Air-Cooled Steam Condenser Based on the Operation Model of the Axial Fans[C]. IAHR International Conference on Cooling Tower and Heat Exchanger, Lyon, France, 2017.

[2]      Sun Q, Wang Y, Cheng Z, et al. Thermodynamic Optimization of a Double-pressure Organic Rankine Cycle Driven by Geothermal Heat Source[J]. Energy Procedia, 2017, 129:591-598.

[3]      Wang J, Hwang Y, Wang Z, et al. Optimum control strategy for a low-temperature solar Kalina cycle power generation under off-design conditions[J]. ASME IMECE, 2017.

[4]      陈良奇，曹立彦，王江峰，等. 有机工质轴流透平数值模拟与分析[J]. 中国工程热物理学会论文, 2017.

[5]      娄聚伟，王江峰，夏家曦，等. 基于跨临界CO2/C3H8混合工质向心透平设计及性能分析[J]. 中国工程热物理学会论文, 2017.

[6]      孙勍铉，王亚雄，程梓洋，等. 基于负荷预测管理的建筑热泵节能系统调节特性研究[J]. 中国工程热物理学会论文, 2017.

期刊论文

[1]      Cao L, Wang J, Wang H, et al. Thermodynamic analysis of a Kalina-based combined cooling and power cycle driven by low-grade heat source[J]. Applied Thermal Engineering, 2017, 111:8-19.

[2]      Cao Y, Dai Y. Comparative analysis on off-design performance of a gas turbine and ORC combined cycle under different operation approaches[J]. Energy Conversion & Management, 2017, 135:84-100.

[3]      Cao Y, Dai Y. Preliminary System Design and Off-Design Analysis for a Gas Turbine and ORC Combined Cycle[J]. Journal of Energy Engineering, 2017, 143(5).

[4]      Cao Y, Ren J, Sang Y, et al. Thermodynamic analysis and optimization of a gas turbine and cascade CO 2, combined cycle[J]. Energy Conversion & Management, 2017, 144:193-204.

[5]      Dai Y, Hu D, Wu Y, et al. Comparison of a basic organic Rankine cycle and a parallel double-evaporator organic Rankine cycle[J]. Heat Transfer Engineering, 2017, 38:00-00.

[6]      Sun Q, Wang J, Zhao P, et al. Thermoeconomic analysis and optimization of a reverse osmosis desalination system driven by ocean thermal energy and solar energy[J]. Desalination & Water Treatment, 2017, 77:194-205.

[7]      Wang J, Wang J, Dai Y, et al. Off-design performance analysis of a transcritical CO2 Rankine cycle with LNG as cold source[J]. International Journal of Green Energy, 2017.

[8]      Wang J, Wang J, Dai Y, et al. Assessment of Off-design Performance of a Kalina Cycle Driven by Low-grade Heat Source[J]. Energy, 2017, 138.

[9]      Wang X, Yang Y, Zheng Y, et al. Exergy and exergoeconomic analyses of a supercritical CO2, cycle for a cogeneration application[J]. Energy, 2017, 119:971-982.

[10]      Yang Y, Huo Y, Xia W, et al. Construction and preliminary test of a geothermal ORC system using geothermal resource from abandoned oil wells in the Huabei oilfield of China[J]. Energy, 2017, 140.

[11]      Yang Y, Wang X, Wang M, et al. Torsional-longitudinal shock responses of a ship propulsion shaft system[J]. Zhendong Yu Chongji/journal of Vibration & Shock, 2017, 36(13):96-102.

[12]      Zheng Y, Hu D, Cao Y, et al. Preliminary design and off-design performance analysis of an Organic Rankine Cycle radial-inflow turbine based on mathematic method and CFD method[J]. Applied Thermal Engineering, 2017, 112:25-37.

[13]      娄聚伟, 王建永, 王江峰,等. 带一个回热器的Kalina循环的热力参数分析及优化[J]. 中国科技论文, 2017(23).

[14]      乔红, 曹越, 戴义平. 燃气-蒸汽联合循环变工况性能和控制策略的研究[J]. 热能动力工程, 2017, 32(3):33-39.

[15]      任敬琦, 曹越, 桑懿谦,等. H级重型燃气轮机建模与动态仿真[J]. 动力工程学报, 2018(2).

[16]      桑懿谦, 夏俊荣, 戴义平,等. 双馈风力机转子动能在系统频率跌落时的响应能力分析[J]. 西安交通大学学报, 2017, 51(11):130-136.

[17]      王建永, 王江峰, 王红阳,等. 有机朗肯循环地热发电系统工质选择[J]. 工程热物理学报, 2017, V38(1):11-17.

[18]      夏家曦, 王红阳, 王江峰,等. 一种基于内燃机余热回收的冷电联供系统[J]. 工程热物理学报, 2017, V38(2):235-0242.

 

• 2016年

会议论文

[1]      Xia J, Wang J, Zhao P, et al. Performance Analysis and Comparison Study of Transcritical Power Cycles Using CO2 -Based Mixtures as Working Fluids[C]// ASME Turbo Expo 2016: Turbomachinery Technical Conference and Exposition. 2016:V009T36A011. 

[2]      孙勍铉，王江峰，赵攀，等. 基于温差能和太阳能的跨临界CO2循环海水淡化系统优化设计[J]. 中国工程热物理学会论文, 2016.

期刊论文

[1]      Cao L, Wang J, Zhao P, et al. Thermodynamic comparison among double-flash flash-Kalina and flash-ORC geothermal power plants[J]. International Journal of Thermodynamics, 2016, 19(1):53.

[2]      Cao Y, Gao Y, Zheng Y, et al. Optimum design and thermodynamic analysis of a gas turbine and ORC combined cycle with recuperators[J]. Energy Conversion & Management, 2016, 116:32-41.

[3]      Li H, Hu D, Wang M, et al. Off-design performance analysis of Kalina cycle for low temperature geothermal source[J]. Applied Thermal Engineering, 2016, 107:728-737.

[4]      Li H, Wang M, Wang J, et al. Exergoeconomic Analysis and Optimization of a Supercritical CO 2 Cycle Coupled with a Kalina Cycle[J]. Journal of Energy Engineering, 2016.

[5]      Wang J, Wang J, Zhao P, et al. Thermodynamic analysis of a new combined cooling and power system using ammonia–water mixture[J]. Energy Conversion & Management, 2016, 117:335-342.

[6]      Wang M, Zhao P, Wang J, et al. Conceptual design and parametric study of combined carbon dioxide/organic Rankine cycles[J]. Applied Thermal Engineering, 2016, 103:759-772.

[7]      Wang X, Dai Y. An exergoeconomic assessment of waste heat recovery from a Gas Turbine-Modular Helium Reactor using two transcritical CO2, cycles[J]. Energy Conversion & Management, 2016, 126:561-572.

[8]      Wang X, Dai Y. Exergoeconomic analysis of utilizing the transcritical CO2 cycle and the ORC for a recompression supercritical CO2 cycle waste heat recovery: A comparative study[J]. Applied Energy, 2016, 170:193-207.

[9]      Xia J, Wang J, Lou J, et al. Thermo-economic analysis and optimization of a combined cooling and power (CCP) system for engine waste heat recovery[J]. Energy Conversion & Management, 2016, 128:303-316.

[10]      Yang Y, Wang J, Wang X, et al. A general method to predict unbalance responses of geared rotor systems[J]. Journal of Sound & Vibration, 2016, 381:246-263.

[11]      Yang Y, Wang X, Wang M, et al. Dynamic behaviors of helical geared multishaft rotor systems by modal synthesis[J]. ARCHIVE Proceedings of the Institution of Mechanical Engineers Part C Journal of Mechanical Engineering Science 1989-1996 (vols 203-210), 2016, 231(8).

[12]      Zhao P, Gao L, Wang J, et al. Energy efficiency analysis and off-design analysis of two different discharge modes for compressed air energy storage system using axial turbines[J]. Renewable Energy, 2016, 85:1164-1177.

[13]      Zheng Y, Hu D, Dai Y. Simulation of the airborne radioactive substance distribution and monitoring of coolant leakage in a typical Nuclear Reactor Containment[J]. Annals of Nuclear Energy, 2016, 87:462-470.

[14]      Zhao Y, Wang J. Exergoeconomic analysis and optimization of a flash-binary geothermal power system[J]. Applied Energy, 2016, 179:159-170.

[15]      Zhao Y, Wang J, Cao L, et al. Comprehensive analysis and parametric optimization of a CCP (combined cooling and power) system driven by geothermal source[J]. Energy, 2016, 97:470-487.

[16]      乔红, 曹越, 戴义平. 300MW重型燃气轮机数学建模与动态仿真[J]. 燃气轮机技术, 2016(2):28-33.

[17]      王佳莹, 高毅超, 曹越,等. 湿空气透平循环的压缩空气储能热电联供系统热力学分析[J]. 西安交通大学学报, 2016, 50(7):26-31.

[18]      吴毅, 胡东帅, 王明坤,等. 一种新型的跨临界CO2储能系统[J]. 西安交通大学学报, 2016, 50(3):45-49.

[19]      吴毅, 王佳莹, 王明坤,等. 基于超临界CO2布雷顿循环的塔式太阳能集热发电系统[J]. 西安交通大学学报, 2016, 50(5):108-113.

 

• 2015年

会议论文

[1]       Xurong Wang, Yi Wu, Jiangfeng Wang, Yiping Dai, Danmei Xie. Thermo-economic analysis of a recompression supercritical CO2 cycle combined with a transcritical CO2 cycle. Proceedings of ASME Turbo Expo 2015, June 15-19, 2015, Montréal, Canada.

[2]       Yue Cao, Jiaying Wang, Yiping Dai, Danmei Xie. Study of Speed Control System of Heavy-Duty Gas Turbine. Proceedings of ASME Turbo Expo 2015, June 15-19, 2015, Montréal, Canada.

[3]       Ya Zheng, Saili Li, Dongshuai Hu, Yiping Dai. Numerical simulation study of characteristics of vertical gravity separation in a Kalina cycle system. Proceedings of ASME Turbo Expo, June 15-19, 2015, Montréal, Canada.

[4]       Xurong Wang, Yi Yang, Mingkun Wang, Ya Zheng, Yiping Dai. Utilization of waste heat from intercooled, reheat and recuperated gas turbines for power generation in organic Rankine cycles. 3rd International Seminar on ORC Power Systems, October 12-14, 2015, Brussels, Belgium.

[5]       Ya Zheng,Dongshuai Hu, Xurong Wang, Saili Li, Yiping Dai. An automatic adjusting device of the spiral groove face seal used on ORC turbine and the establishment of control system. Proceedings of IWHT 2015 3nd International Workshop on Heat Transfer Advances for Energy Conservation and Pollution Control, October 16-19, 2015, Taipei, Taiwan.

[6]       Dongshuai Hu, Yi Wu, Yike Gao, Yue Cao, Yiping Dai. Comparison of a basic organic Rankine cycle with zeotropic mixtures and a parallel double-evaporator organic Rankine cycle with pure fluids. 17th IAHR International Conference on Cooling Tower and Heat Exchanger, 2015, Queensland, Australia.

期刊论文

[1]       Hu D, Li S, Zheng Y, et al. Preliminary design and off-design performance analysis of an Organic Rankine Cycle for geothermal sources[J]. Energy Conversion & Management, 2015, 96:175-187.

[2]       Hu D, Zheng Y, Wu Y, et al. Off-design performance comparison of an organic Rankine cycle under different control strategies[J]. Applied Energy, 2015, 156:268-279.

[3]       Man W, Wang J, Pan Z, et al. Multi-objective optimization of a combined cooling, heating and power system driven by solar energy[J]. Energy Conversion & Management, 2015, 89(89):289-297.

[4]       Wang J, Wang J, Dai Y, et al. Thermodynamic analysis and optimization of a flash-binary geothermal power generation system[J]. Geothermics, 2015, 55:69-77.

[5]       Wang M, Zhao P, Wu Y, et al. Performance analysis of a novel energy storage system based on liquid carbon dioxide[J]. Applied Thermal Engineering, 2015, 91:812-823.

[6]       Wang M, Zhao P, Yang Y, et al. Performance analysis of energy storage system based on liquid carbon dioxide with different configurations[J]. Energy, 2015, 93:1931-1942.

[7]       Wang X, Wang J, Zhao P, et al. Thermodynamic Comparison and Optimization of Supercritical CO2 Brayton Cycles with a Bottoming Transcritical CO2 Cycle[J]. Journal of Energy Engineering, 2015.

[8]       Xia G, Sun Q, Wang J, et al. Theoretical analysis of a reverse osmosis desalination system driven by solar-powered organic Rankine cycle and wind energy[J]. Desalination & Water Treatment, 2015, 53(4):876-886.

[9]       Zhao P, Dai Y, Wang J. Performance assessment and optimization of a combined heat and power system based on compressed air energy storage system and humid air turbine cycle[J]. Energy Conversion & Management, 2015, 103:562-572.

[10]       Zhao P, Wang J, Dai Y. Capacity allocation of a hybrid energy storage system for power system peak shaving at high wind power penetration level[J]. Renewable Energy, 2015, 75(C):541-549.

[11]       Zhao P, Wang J, Dai Y. Thermodynamic analysis of an integrated energy system based on compressed air energy storage (CAES) system and Kalina cycle[J]. Energy Conversion & Management, 2015, 98:161-172.

[12]       Zhao P, Wang J, Dai Y, et al. Thermodynamic analysis of a hybrid energy system based on CAES system and CO2 transcritical power cycle with LNG cold energy utilization[J]. Applied Thermal Engineering, 2015, 91:718-730.

[13]       Zhao P, Wang M, Wang J, et al. A preliminary dynamic behaviors analysis of a hybrid energy storage system based on adiabatic compressed air energy storage and flywheel energy storage system for wind power application[J]. Energy, 2015, 84:825-839.

[14]      吴毅, 王旭荣, 杨翼,等. 以液化天然气为冷源的超临界CO2-跨临界CO2冷电联供系统[J]. 西安交通大学学报, 2015, 49(9):58-62.

• 2014年

会议论文

[1]   Jianyong Wang, Jiangfeng Wang, Yiping Dai, Yan Peng. Thermodynamic analysis and comparison study of an organic Rankine cycle (ORC) and a Kalina cycle for waste heat recovery of compressor intercooling. Proceedings of ASME Turbo Expo, June 16-20, 2014, Dusseldorf, German. Accepted

[2]    Zhao Pan, Wang Mingkun, Wang Jiangfeng, Dai Yiping. Investigation of the Combination of Bypass System and OPC Function for ORC System Stability under Load Rejection Conditon. Proceedings of ASME Turbo Expo, June 16-20, 2014, Dusseldorf, German. Accepted.

期刊论文

[1]    Saili Li, Yiping Dai. Thermo-economic comparison of Kalina and CO2 transcritical power cycle for low temperature geothermal sources in China[J]. Applied Thermal Engineering, 2014, 70:139-152. (SCI: AO6LU, EI: 20142317782676)

[2]    Saili Li, Yiping Dai. Thermo-economic analysis of waste heat recovery ORC using zeotropic mixtures. Journal of Energy Engineering, 2014. (SCI刊源)

[3]    Saili Li, Yiping Dai. Design and simulation analysis of a small-scale compressed air Energy storage system directly driven by vertical axis wind turbine for isolated areas. Journal of Energy Engineering, 2014. (SCI刊源)

[4]    Maoqing Li, Jiangfeng Wang, Saili Li, Xurong Wang, Weifeng He, Yiping Dai. Thermo-economic analysis and comparison of a CO2 transcritical power cycle and an organic Rankine cycle. Geothermics, 2014, 50: 101-111. (SCI: AB0LD)

[5]    Xuzhan Zhou, Shanshan Liu, Mingkun Wang, Yiping Dai, Yaohua Tang. Parameter identication of interconnected power system frequency after trip-out of high voltage transmission line. Frontiers in  Energy, 2014, 8(3), 386-393.

[6]   Guanghui Xia, Qingxuan Sun, Xu Cao, Jiangfeng Wang, Yizhao Yu, Laisheng Wang. Thermodynamic analysis and optimization of a solar-powered transcritical CO2 (carbon dioxide)  power cycle for  reverse osmosis desalination based on the recovery of cryogenic energy of LNG (liquefied natural gas). Energy, 2014, 66:643-653.

[7]    Kai Chen, Jiangfeng Wang, Yiping Dai, Yuqi Liu. Thermodynamic analysis of a low-temperature waste heat recovery system based on the concept of solar chimney. Energy  Conversion and  Management, 2014, 80: 78-86.

[8]    Jiangfeng Wang, Zhequan Yan, Pan Zhao, Yiping Dai. Off-design performance analysis of a solar-powered organic Rankine cycle. Energy Conversion and Management, 2014,  80:150-157.

[9]    Jianyong Wang, Jiangfeng Wang, Yiping Dai, Pan Zhao. Thermodynamic analysis and optimization of a transcritical CO2 geothermal power generation system based on the cold  energy utilization of     LNG. Applied Thermal Engineering, 2014, 70(1): 531-540.

[10]  Liyan Cao, Jiangfeng Wang, Yiping Dai. Thermodynamic analysis of a biomass-fired Kalina cycle with regenerative heater. Energy, 2014, 77: 760-770.

[11]  Pan Zhao, Yiping Dai, Jiangfeng Wang. Design and thermodynamic analysis of a hybrid energy storage system based on A-CAES and FESS for wind power application. Energy,      2014, 70:674-684.

[12]   王旭荣,李福尚,张亚夫,戴义平.超临界机组参与一次调频对汽轮机寿命影响的研究.热能动力工程, 2014,29(4),367-373.

[13]   李福尚,王旭荣,戴义平,张亚夫.超临界机组一次调频对汽轮机动态热力特性的影响.热能动力工程,2014,29(5),470-476.

[14]   王明坤,王旭荣,王晓婓,庄会庆,戴义平.超临界汽轮机配汽方式的优化分析. 汽轮机技术,2014,56(4),272-278.

[15]   王明坤，刘姗姗，王晓斐，庄会庆，戴义平. 超超临界汽轮机调节级叶片的汽流激振力研究. 汽轮机技术，2014, 56(3), 195-198.

 

• 2013年

会议论文

[1]       Saili Li, Yiping Dai, Maoqing Li, Lin Gao. Modeling and simulation of micro-grid system coulped with small wind turbine. Proceedings of ASME Turbo Expo  June 3-7, 2013,San Antonio, United States. (EI: 20135117102253)

[2]       Jiangfeng Wang, Man Wang, Zhequan Yan, Yiping Dai. Thermodynamic optimization of a solar-boosted ocean thermal energy conversion system based on organic Rankine cycle. Proceedings of ASME Turbo Expo, June, 2013, San Antonio, USA.

[3]       Man Wang, Jiangfeng Wang, Pan Zhao, Yiping Dai. Thermodynamic optimization of a solar-boosted ocean thermal energy conversion system based on organic Rankine cycle. ASME-ORC, 2nd International Seminar on ORC power systems, October 7-8, 2013, Rotterdam, Netherlands.

[4]       Man Wang, Jiangfeng Wang, Yiping Dai. Thermoeconomic analysis of a Building Cooling Heating and Power system driven by solar energy. The 26th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy systems, July, 16-19, Guilin, China, 2013.

期刊论文

[1]       Weifeng He, Yiping Dai, Jiangfeng Wang, Maoqing Li, Qingzhong Ma. Performance prediction of an air-cooled steam condenser using UDF method. Applied Thermal Engineering, 2013, 50(1):1339-1350. (SCI: 079RY，EI: 20125015803177)

[2]       Maoqing Li, Jiangfeng Wang , Weifeng He, Lin Gao, Bo Wang, Shaolin Ma, Yiping Dai. Construction and preliminary test of a low-temperature regenerative organic Rankine cycle (ORC) using R123. Renewable Energy, 2013, 57: 216-222.

[3]       Maoqing Li, Jiangfeng Wang, Weifeng He, Bo Wang, Shaolin Ma, Yiping Dai. Experimental evaluation of the regenerative organic Rankine cycle (ORC) and basic ORC for low grade heat source utilization. Journal of Energy Engineering, 2013, 139(3): 190-197.

[4]       Maoqing Li, Jiangfeng Wang, Saili Li, Yiping Dai. Experimental study and numerical simulation of a regenerative Organic Rankine Cycle (ORC) utilizing low grade heat source. Journal of Energy Engineering, 2013, in press.

[5]        Zhequan Yan, Pan Zhao, Jiangfeng Wang, Yiping Dai. Thermodynamic analysis of an SOFC-GT-ORC integrated power system with liquefied natural gas as heat sink. International Journal of Hydrogen Energy, 2013,38:3352-3363. (SCI: 114WV，EI: 20131116103654)

[6]       Jiangfeng Wang, Zhequan Yan, Man Wang, Yuhui Song, Yiping Dai. Parametric analysis and optimization of a building cooling heating power system driven by solar energy based on organic working fluid. International Journal of Energy Research, 2013, 37:1465-1474. (SCI/EI刊源)

[7]       Man Wang, Jiangfeng Wang，Yuzhu Zhao, Pan Zhao, Yiping Dai. Thermodynamic analysis and optimization of a solar-driven regenerative organic Rankine cycle (ORC) based on flat-plate solar collectors. Applied thermal Engineering, 2013,50(1):816-825. (SCI/EI刊源)

[8]       Jiangfeng Wang, Zhequan Yan, Enmin Zhou, Yiping Dai. Parametric analysis and optimization of a Kalina cycle driven by solar energy. Applied thermal Engineering, 2013, 50(1):408-415. (SCI/EI刊源)

[9]       Jiangfeng Wang, Zhequan Yan, Man Wang, Shaolin Ma,Yiping Dai. Thermodynamic analysis and optimization of an (organic Rankine cycle) ORC using low grade heat source. Energy, 2013, 49: 356-365. (SCI/EI刊源)

[10]     Jiangfeng Wang, Zhequan Yan, Man Wang, Yiping Dai. Thermodynamic analysis and optimization of an ammonia-water power system with LNG as its heat sink. Energy, 2013, 50: 513-522. (SCI/EI刊源)

[11]     Jiangfeng Wang, Zhequan Yan, Man Wang, Maoqing Li, Yiping Dai. Multi-objective optimization of an organic Rankine cycle (ORC) for low grade waste heat recovery using evolutionary algorithm.  Energy conversion and management, 2013, 71: 146-158.

[12]     Jiangfeng Wang, Man Wang, Maoqing Li, Jiaxi Xia, Yiping Dai. Multi-objective optimization design of condenser in an organic Rankine cycle for low grade waste heat recovery using evolutionary  algorithm. International Communications in Heat and Mass Transfer, 2013, 45: 47-54.

[13]    王漫，王江峰，阎哲泉，马少林，戴义平．有机工质低温余热发电系统多目标优化设计．动力工程学报，2013，33（5）：387-392．

[14]    阎哲泉，王漫，王江峰，马少林，戴义平．基于固体氧化物燃料电池的有机工质余热发电联合系统特性的理论研究．动力工程学报，2013，33（7）：560-566．

• 2012年

会议论文

[1]        Pan Jiang, Lin Gao, Yiping Dai. Operating Mode Optimization for Steam Turbine Units Relating to Grid Code. Proceedings of Fifth International Conference on Applied Energy, July 5-8, 2012,Suzhou, China.

[2]        Pan Jiang, Junrong Xia, Yiping Dai. Participation of Variable Speed Wind Turbines in Primary Frequency Control. The Conference on Innovative Smart Grid Technologies Asia, May 21-24, 2012,Tianjin, China. (EI: 20124615658857)

[3]        Ya Zheng, Ying Wang, Yiping Dai. Numerical Simulation and Characteristics Analysis of the Turbine Shaft End Spiral Groove Mechanical Seal. Third International Conference on Digital Manufacturing & Automation IEEE, July 31- August 2, 2012, Guilin, China.(EI:20124515641878)

[4]        Ya Zheng, Ying Wang, Yiping Dai. Numerical Simulation and Characteristics Analysis of the Turbine Shaft End Spiral Groove Mechanical Seal. Third International Conference on Digital Manufacturing & Automation IEEE, 2012.(EI:20124515641878)

[5]        Maoqing Li, Jiangfeng Wang, Lin Gao, Xiaoqing Niu, Yiping Dai. Performance Evaluation of A Turbine Used in A Regenerative Organic Rankine Cycle. Proceedings of ASME Turbo Expo, June 11-15, 2012, Copenhagen, Denmark. (EI: 20133316600534)

[6]        Maoqing Li, Jiangfeng Wang, Bo Wang, Yiping Dai. Thermo-economic analysis of the regenerative organic Rankine cycle: a case study. International Conference on Applied Energy, Jul 5-8, Suzhou, China, 2012.

[7]        Zhixin Sun, Yiping Dai, Hao Liu, Yue Wang, Jihong Wang. Dynamic performance of a dual-pressure waste heat recovery system under partial load operation. Proceedings of 18th International Conference on Automation and Computing ICAC, September 7-8, 2012, Loughborough, UK.

[8]        BoWang, Maoqing Li, Saili Li, Yiping Dai. A Study of The Off-design performance of an axial-flow turbine in ORC system. Proceedings of International Conference on Applied Energy ICAE, July 5-8, 2012, Suzhou, China.

[9]        Jiangfeng Wang, Yuzhu Zhao, Pan Zhao, Yuhui Song, Yiping Dai. Thermodynamic analysis and optimization comparison of different cogeneration power cycles to recover low grade heat source. Proceedings of International conference on Applied Energy, Jul 5-8, 2012, Suzhou, China.

[10]     王江峰，王漫，阎哲泉，戴义平．石灰窑低温余热发电系统对比研究．中国工程热物理学会学术会议论文，2012．

期刊论文

[1]       Yiping Dai, Pan Jiang, Lin Gao, et al. Capacity limitation of nuclear units in grid based on analysis of frequency regulation[J]. Frontiers in Energy, 2012,6(2):148-154.

[2]       Maoqing Li, Jiangfeng Wang, Lin Gao, Xiaoqiang Niu, Yiping Dai. Performance Evaluation Of a Turbine Used in a Regenerative Organic Rankine Cycle. Proceedings of ASME Turbo Expo, June 11-15, 2012, Copenhagen, Denmark.

[3]       Junrong Xia, Pan Zhao, Yiping Dai. Operation and simulation of hybrid wind and gas turbine power system employing  wind  power  forecasting. Journal  of  Engineering  for  Gas  Turbines  and  Power-Transactions of the ASME, 2012, 134(12): 124501 . ( SCI 收录, EI: 20124415613491)

[4]       Weifeng He, Yiping Dai, Maoqing Li, Qingzhong Ma. Influence Mechanism on Flow and Heat Transfer Characteristics for Air-Cooled Steam Condenser Cells. Heat and Mass Transfer, 2012, 48:1663-1674. (SCI: 994VU, EI: 20124115556662)

[5]       Pan Zhao, Jiangfeng Wang, Lin Gao, Yiping Dai. Parametric analysis of a hybrid power system using organic Rankine cycle to recover waste heat from proton exchange membrane fuel cell. International Journal of Hydrogen Energy, 2012, 37: 3382-3391. (SCI/EI刊源)

[6]       Pan Zhao, Jiangfeng Wang, Junrong Xia, Yiping Dai, Yingxin Sheng, Jie Yue. Performance evaluation and accuracy enhancement of a day-ahead wind power forecasting system in China. Renewable Energy, 2012, 43: 234-241. (SCI/EI刊源)

[7]       Zhixin Sun, Lin Gao, Jiangfeng Wang, Yiping Dai. Dynamic optimal design of a power generation system utilizing industrial waste heat considering parameter fluctuations of exhaust gas. Energy, 2012, 44(1): 1035-1043. (SCI/EI刊源)

[8]       Zhixin Sun, Jiangfeng Wang, Yiping Dai, Jihong Wang. Exergy analysis and optimization of a hydrogen production process by a solar-liquefied natural gas hybrid driven transcritical CO2 power cycle. International Journal of Hydrogen Energy, 2012, 37(24): 18731-18739. (SCI/EI刊源)

[9]       Jiangfeng Wang, Pan Zhao, Xiaoqiang Niu, Yiping Dai. Parametric analysis of a new combined cooling, heating and power system with transcritical CO2 driven by solar energy. Applied Energy, 2012, 94:58-64. (SCI/EI刊源)

[10]     Jiangfeng Wang, Zhequa Yan, Shaolin Ma, Yiping Dai. Thermodynamic analysis of an integrated power generation system driven by solid oxide fuel cell. International Journal of  Hydrogen Energy, 2012, 37: 2535-2545. (SCI/EI刊源)

[11]     Yuhui Song, Jiangfeng Wang, Yiping Dai, Enmin Zhou. Thermodynamic analysis of a transcritical CO2 power cycle driven by solar energy with liquified natural gas as its heat sink.  Applied Energy, 2012, 92:194-203. (SCI/EI刊源)

[12]    高林，戴义平，王江峰，赵攀，赵婷．机组一次调频参数指标在线估计方法．中国电机工程学报，2012，32（16）：62-69．(EI: 20123115297092)

[13]    何纬峰,戴义平.空冷凝汽器翅片管换热器阻力特性数值研究. 热力透平, 2012, 41(3):196-200.

 

• 2011年

会议论文

[1]   Weifeng He, Yiping Dai. Pressure Forecast of an Air-cooled Steam Condenser under Wind Speeds. Proceedings of International Conference on Manufacturing Science and Technology, September 16-18, 2011, Singapore.

[2]   Weifeng He, Yiping Dai, Qingzhong Ma. Numerical Investigation and Performance Optimization of an Aircooled Steam Condenser Cell under Ambient Conditions. Proceedings of ASME Turbo Expo, June 06-10, 2011, Vancouver, Canada. (EI: 20123615387591)

[3]   Weifeng He, Yiping Dai, Qingzhong Ma, Danmei Xie. Numerical Investigation of Hot Air Recirculation in an Air-Cooled Steam Condenser under Ambient Conditions. Proceedings of ASME Power Conference, July 12-14, 2011, Denver, CO,USA. (EI: 20133516663413)

[4]   Zhixin Sun, Yiping Dai, Jiangfeng Wang, Danmei Xie.      Modeling and Control System Design of a Marine Condensing System. Proceedings of ASME Turbo Expo, June 06-10, 2011, Vancouver, Canada.

[5]   Pan Zhao, Yiping Dai, Jiangfeng Wang, Danmei Xie. Dynamic Analysis of a Wind Energy Storage System in Remote Offshore Areas. Proceedings of ASME Turbo Expo, June 06-10, 2011, Vancouver, Canada.

[6]   Le Wen, Lin Gao, Yiping Dai. Research on System Modeling and Control of Turbine-driven Centrifugal Compressor. Proceedings of 6th IEEE Conference on Industrial Electronics and Applications ICIEA, June 21-23, 2011, Beijing, China.

[7]    Zhixin Sun, Jiangfeng Wang, Yiping Dai.    Modeling and Control System Design of a Marine Electric Power Generating System. Proceedings of 6th IEEE Conference on Industrial Electronics and Applications ICIEA, June 21-23, 2011, Beijing, China.

[8]    Wen Liu, Lin Gao, Yiping Dai. Generating Unit and Control System Model for Stability Analysis of Power System. Proceedings of International Conference on Consumer Electronics, Communications and Networks CECNet, April 16-18, 2011, XianNing, China.

[9]     Weimin Kan, Junrong Xia, Lin Gao, Yiping Dai. Study on the Mathematical Model and Primary Frequency Regulation Characteristics of Combined Cycle Plants. Proceedings of Second International Conference on Mechanic Automation and Control Engineering, July 15-17, 2011, Hohhot, China.

[10]   戴义平，何纬峰，王江峰．空冷凝汽器翅片管换热器阻力特性数值研究．中国动力工程学会透平专业委员会2011年学术研讨会论文集．

[11]   戴义平，夏俊荣，赵攀．风电功率预测技术及发展现状．中国动力工程学会透平专业委员会2011年学术研讨会论文集, 2011, 四川德阳.

期刊论文

[1]   Shaolin Ma, Jiangfeng Wang, Zhequan Yan, Yiping Dai, Bingheng Lu. Thermodynamic analysis of a new combined cooling, heat and power system driven by solid oxide fuel cell based on ammonia-water mixture. Journal of Power Sources, 2011, 196: 8463-8471. (SCI: 818GF, EI: 20113214210877)

[2]   孙志新，戴义平，王江峰，李平．电厂循环水水源热泵供热系统可行性分析．暖通空调，2011，41（3）：133-136．

[3]   何纬峰，戴义平，马庆中，环境风对直接空冷单元运行性能影响的研究，中国电机工程学报，2011, 31(20):13-18. (EI: 20113114207777)

[4]   何纬峰，戴义平，马庆中，牛晓强，环境风影响下直接空冷单元背压预测研究，西安交通大学学报，2011, 45(1):15-20. (EI: 20111113755216)

[5]   何纬峰，戴义平，环境风速对空冷凝汽器运行性能影响的研究，西安交通大学学报，2011, 45(5):31-35. (EI: 20112414057973)

[6]   赵攀，戴义平，夏俊荣，盛迎新．卡尔曼滤波修正的风电场短期功率预测模型．西安交通大学学报, 2011, 45(5):47-51. (EI: 20112414057976)

[7]   文乐，高林，戴义平. 透平压缩机组的模糊PID控制与特性研究. 西安交通大学学报, 2011, 45(7):76-81.

 

• 2010年

会议论文

[1]   Lin Gao, Yiping Dai. Rotor Dynamic Analysis on Partial admission control stage in a large power steam turbine. Proceedings of ASME Turbo Expo 2010: Power for Land, Sea and Air, June 14-18, 2010, Glasgow, UK. (EI: 20114814562344)

[2]   Jiangfeng Wang, Yiping Dai, Zhixin Sun, Shaolin Ma. Parametric analysis and optimization of a new CCHP system utilizing liquefied natural gas(LNG). Proceedings of ASME Turbo Expo 2010: Power for Land, Sea and Air, June 14-18 , 2010, Glasgow, UK.

[3]   Lin Gao, Junrong Xia, Yiping Dai. Modeling of Combined Cycle Power Plant Based on a Genetic Algorithm Paramaeter Identification Method. 6th International Conference on Natural Computation, ICNC, August 10-12, 2010, Yantai, Accepted.

[4]   Yiping Dai, Junrong Xia, Yiping Dai, Jiaxing He. Wind Speed Prediction Using Support Vector Regression. 5th IEEE Conference on Industrial Electronics and Applications, ICIEA 2010, 15-17 June, Taiwai. (EI: 20103513198164)

[5]   Pan Zhao, Yiping Dai. The influence of the over-speed protection control for the isolated grid stability. 2010  International  Conference  on  Power  System  Technology:  Technological  Innovations  Making Power Grid Smarter, October, 2010, Hangzhou, China. (EI: 20110413608891)

[6]   Lin Gao, Junrong Xia, Yiping Dai. Analysis of Power System Frequency Responses with Hydro Turbines Incorporating Load Shedding. 5th IEEE Conference on Industrial Electronics and Applications, ICIEA 2010, 15-17 June, Taiwai. (EI: 20103513198167)

[7]   CuiCui Wu, Lin Gao, Junrong Xia, Yiping Dai. Analysis of Effects on Primary Frequency Control and Power Grid Stability of Different Control Logic. 5th IEEE Conference on Industrial Electronics and Applications ICIEA, June 15-17, 2010,Taiwai. (EI:20103513198165)

[8]   Junrong Xia, Pan Zhao, Yiping Dai. Neuro-fuzzy  networks  for  short-term  wind  power  forecasting. International Conference on Power System Technology: Technological Innovations Making Power Grid Smarter, October, 2010, Hangzhou, China. (EI: 20110413609148)

期刊论文

[1]   Jiangfeng Wang, Zhixin Sun, Yiping Dai, Shaolin Ma. Parametric optimization design for supercritical CO2 power cycle using genetic algorithm and artificial neural network. Applied Energy, 2010, 87(4): 1317-1324 (SCI:555JL; EI:20100112612156).

[2]   高林, 夏俊荣, 戴义平, 阚伟民. 基于遗传算法的联合循环机组建模和参数辨识, 电力系统自动化, 2010, 34(4): 34 -38. (EI: 20101612858343)

[3]   程庆芳, 张邓杰, 戴义平. 水泥窑烟气双压余热锅炉热力系统的参数优化, 热力发电, 2010, 39(7): 18-22.

[4]   程庆芳, 张邓杰, 戴义平. 水泥窑烟气双压余热锅炉热力系统的参数优化. 热力发电, 2010, 39(7): 18-22.

[5]   刘经武, 戴义平. 基于有机朗肯循环低温余热利用研究.东方汽轮机, 2010 (2): 22-27.

[6]   李兴奎, 吴志勇, 戴义平, 等. 基于液压同步牵引的沉船打捞技术.预应力技术, 2010 (3): 25-29.

 

• 2009年

会议论文

[1]     Lin Gao, Yiping Dai, Junrong Xia. Parameter Identification of Hydro Generation System with Fluid Transients Based on Improved Genetic Algorithm. 5th International Conference on Natural Computation, August 14-16, 2009, Tianjin, China, accepted.

[2]    Lin Gao, Yiping Dai, Zhiqiang Wang, Yatao Xu, Qingzhong Ma. Rotordynamic stability under partial admission conditions in a large power steam turbine. Proceedings of ASME Turbo Expo 2009, June 8-12, 2009, Orlando, Florida, USA.

[3]    Lin Gao, Yiping Dai, Junrong Xia. A New framework for power system identification based on an improved genetic algorithm. 4th IEEE Conference on Industrial Electronics and Applications, May 25-27, 2009, Xi’an, China(EI:20094012351553).

期刊论文

[1]    Yiping Dai, Jiangfeng Wang, Lin Gao. Parametric optimization and comparative study of the organic Rankine cycle(ORC) for low-grade waste heat recovery. Energy Conversion and Management, 2009, 50(3): 576-582 (SCI: 412EZ; EI: 20090511887231).

[2]    Jiangfeng Wang, YIping Dai, Lin Gao. Exergy analyses and parametric optimizations for different cogeneration power plants in cement industry. Applied Energy, 2009, 86(6): 941-948(SCI: 425SL; EI: 20090911928310).

[3]    Yiping Dai, Jiangfeng Wang, Lin Gao. Exergy analysis, parametric analysis and optimization for a novel combined power and ejector refrigeration cycle. Applied Thermal Engineering, 2009, 29(10): 1983-1990(SCI: 437CZ; EI: 20091311993295).

[4]    Jiangfeng Wang, Yiping Dai, Zhixin Sun. A theoretical study on a novel combined power and ejector refrigeration cycle. International Journal of Refrigeration, 2009, 32(6): 1186-1194. (SCI: 489ZT; EI: 20093212242561).

[5]    Jiangfeng Wang, Yiping Dai, LIn Gao, Shaolin Ma. A new combined cooling, heating and power system driven by solar energy. Renewable Energy, 2009, 34(12): 2780-2788. (SCI: 493CQ; EI: 20093212245956).

[6]    Jiangfeng Wang, Yiping Dai, Taiyong Zhang, Shaolin Ma. Parametric analysis and optimization for a new combined power and ejector-absorption refrigeration cycle. Energy, 2009, 34(10): 1587-1593. (SCI: 542KO; EI: 20093612291080).

[7]    Lin Gao, Yiping Dai. Impact of Overspeed Protection Control on Stability for Islanded Power System. International Journal of Emerging Electric Power Systems, 2009, 10 (6): 1-9 (EI:200943123912384).

[8]    联合循环机组的数学模型及其参数辨识研究. 燃气轮机技术, 2009, 22(4): 35-39

[9]    特高压输电情况下区域互联电网一次调频稳定性研究, 电网技术, 2009, 33(20): 27-32.

[10]   卧式布置主汽门关闭特性研究，汽轮机技术, 2009, 51(4): 241-244.

[11]   5000t/d级水泥窑低温余热利用方式对比研究. 热能动力工程, 2009, 24(4): 503-506.

[12]   水泥窑余热发电技术的分析及优化. 动力工程, 2009, 29(9): 885-890.

 

• 06-08年

会议论文

[1]   Yiping Dai, Pan Zhao, Shuping Chang. Primary frequency control characteristic of a grid. 3rd IEEE Conference on Industrial Electronics and Applications, ICIEA 2008, Singapore, 1493-1497, Jun 3 - 5 2008, (EI: 20083911591244; ISTP:BIC09).

[2]   Yiping Dai, Ting Zhao, Yufeng Tian, Lin Gao. Reserch on the Influence of Primary Frequency Control Distribution on Power System Security and Stability. IEEE Conference on Industrial Electronics and Applications, ICIEA 2007, 222-226, (EI: 20074210874301; ISTP: BHC89).

[3]    Yiping Dai, Ting Zhao, Yufeng Tian, LIn Gao. Research on the Primary Frequency Control Characteristics of Generators in Power System. 2nd IEEE Conference on Industrial Electronics and Application(ICIEA 2007), May 2007,.569-574, (EI: 20074210874370; ISTP: BHC89).

期刊论文

[1]   Jiangfeng Wang, Yiping Dai, Lin Gao. Parametric analysis and optimization for a combined power and refrigeration cycle. Applied Energy, 2008, 85(11): 1071-1085 (SCI: 328PF; EI: 20083511484135).

[2]   Liping Dai, Maozheng Yu, Yiping Dai. Nozzle passage aerodynamic design to reduce solid particle erosion of a supercritical steam turbine control stage. Wear, 2007, 262: 104-111(SCI: 117NL; EI: 064710250471).

[3]    大功率汽轮机配汽方式对轴系稳定性的影响. 中国电机工程学报, 2008,28(35): 84 - 89 (EI:20090311859984).

[4]    河北南网一次调频特性研究. 中国电力, 2008, 41(7): 5 - 10.

[5]    亚临界600MW机组汽轮机主汽阀关闭异常原因分析和消除. 热力发电, 2008, 37(2): 43- 47.

[6]    卡琳娜循环在中低温余热利用中的应用研究. 汽轮机技术, 2008, 50(3): 208- 210.

[7]    中低温余热发电技术及其在水泥生产中的应用. 节能, 2007, 26(2): 32- 34.

[8]    多区域电网一次调频能力分布对电网安全稳定运行的影响. 中国电力, 2006, 39(5): 18- 22.

[9]    发电机组参与电网一次调频的特性研究. 中国电力, 2006, 39(11): 37- 40.

[10]  调节阀特性非线性补偿方式对动态特性的影响. 热力透平, 2006, 35(2): 74- 78.

[11]  调节阀特性非线性补偿对动态特性影戏那个的仿真研究. 汽轮机技术, 2006, 48(2): 116- 118(EI:07397116440).

[12]  轴流式压缩机叶片断裂原因分析及改型设计. 化工机械, 2006, 33(1): 14- 19.

 

• 06年以前

[1]   发电机组参与电网一次调频的特性研究. 中国电机工程学报, 2005, 25(9): 101- 104.

[2]   灰色预测反馈控制在汽轮机调节系统中的仿真研究. 2004, 46(2) :104- 106.

[3]   基于遗传算法的汽轮机非线性调节系统的参数辨识研究. 动力工程, 2003, 23(1): 2215-2218.

[4]   基于遗传算法的发电厂负荷最优分配. 热力发电, 2003(9): 6- 8.

[5]   基于遗传算法的汽轮机数字电业调节系统的参数辨识研究. 中国电机工程学报, 2002, 22(7): 101- 104.

[6]   基于频谱分析的叶片自振频率测量系统. 汽轮机技术, 2000, 42(5): 263- 268.